AI Article Synopsis
- Researchers developed new analogs of the p53/MDM2 inhibitor peptide pDI, using linkers that can change shape with light exposure.
- These new analogs show varying binding affinities to the MDM2 protein, with the "open" form binding significantly stronger than the "closed" form.
- Studies indicated that the differences in binding strength are due to how the peptides' stapling linkers influence the interactions, affecting both enthalpy and entropy in the binding process.
Article Abstract
Analogs of the known inhibitor (peptide pDI) of the p53/MDM2 protein-protein interaction are reported, which are stapled by linkers bearing a photoisomerizable diarylethene moiety. The corresponding photoisomers possess significantly different affinities to the p53-interacting domain of the human MDM2. Apparent dissociation constants are in the picomolar-to-low nanomolar range for those isomers with diarylethene in the "open" configuration, but up to eight times larger for the corresponding "closed" isomers. Spectroscopic, structural, and computational studies showed that the stapling linkers of the peptides contribute to their binding. Calorimetry revealed that the binding of the "closed" isomers is mostly enthalpy-driven, whereas the "open" photoforms bind to the protein stronger due to their increased binding entropy. The results suggest that conformational dynamics of the protein-peptide complexes may explain the differences in the thermodynamic profiles of the binding.
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| http://dx.doi.org/10.1039/d0ob00831a | DOI Listing |
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